This study will determine whether the drug celecoxib (Celebrex® (Registered Trademark)) can help stabilize or improve vision in patients with age-related macular degeneration (AMD) who are receiving photodynamic therapy, or PDT (also called cold laser treatment). The macula is the part of the retina in the back of the eye that determines central or best vision. AMD can severely impair central vision, affecting a person's ability to read, drive, and carry out daily activities. This vision loss is caused by the formation of abnormal new blood vessels in the choroid-a thin, pigmented vascular layer of the eye behind the retina-that leak blood under the macula. PTD stops the growth of these blood vessels and slows the rate of vision loss. However, the treatment usually does not cause vision to improve, and it has only a temporary effect, requiring several treatments over 2 years. Furthermore, PDT does not work in all patients and may actually cause some swelling and re-growth of blood vessels. Celecoxib is an anti-inflammatory drug that, in animal studies, has prevented the growth of abnormal blood vessels associated with tumors and with injury to the cornea. Thus, the drug might reduce swelling and prevent vessel re-growth in AMD, enhancing the effectiveness of PDT.

Patients 55 years of age and older with AMD and visual acuity of 20/20 to 20/200 may be eligible for this study. Participants will be randomly assigned to take either celecoxib or a placebo (a look-alike pill with no active drug) twice a day and undergo the various tests and procedures detailed below. Not every examination will be done at every visit, but all may be required at one visit.

Medical history and physical examination

Blood drawing: A blood sample is drawn from an arm vein to evaluate liver and kidney function

Eye examination: Visual acuity and eye pressure are measured, and the lens, retina, pupils and eye movements are examined

Photography: Photographs of the eye are taken using a special camera with a bright flash

Fluorescein angiography: Pictures of the retina are taken to look for abnormal blood vessels. A yellow dye is injected into an arm vein and travels to the blood vessels in the eyes. The retina is photographed using a camera that flashes a blue light into the eye. The pictures show if any dye has leaked from the vessels into the retina, indicating possible blood vessel abnormality.

Indocyanine green angiography: This procedure, similar to fluorescein angiography, uses a green dye to photograph the retina and identify portions of abnormal vessels in the deepest part of the retina.

Optical coherence tomography: This new technique uses light to produce a 2-dimensional cross-sectional picture of the retina. The patient looks into a machine called an optical coherence tomograph at a pattern of flashing and rotating red and green lights, first with one eye and then the other.

One week after starting the study medications, laser treatment will begin. For this procedure, a needle is placed in an arm vein and a chemical called verteporfin (Visudyne® (Registered Trademark)) is infused into the vein over 10 minutes. After 15 minutes, the eye is anesthetized with numbing drops. A special contact lens is then placed on the eye and the laser beam is directed to the eye for 83 seconds.

Patients will be followed in the clinic every 6 weeks for 36 weeks for various examinations and possible re-treatment, if needed. Some patients will be asked to return 1 to 2 weeks after the first PDT for an eye examination and fluorescein angiography.

Further study details as provided by National Institutes of Health Clinical Center (CC):

Estimated Enrollment:

60

Study Start Date:

August 2002

Estimated Study Completion Date:

January 2005

Detailed Description:

Age-related macular degeneration (AMD) represents the most common cause of blindness in patients over the age of 60. The major cause of vision loss in this disease is due to the development of choroidal neovascularization. Several clinical trials have shown that eyes with predominately 'well-defined' areas of neovascularization (lesions having at least 50% of vessels which can be readily demarcated with fluorescein angiography) can benefit from treatment with photodynamic therapy (PDT). However, this treatment benefit only results in a reduction in the number of patients who suffer severe vision loss. Few patients demonstrate an improvement in visual acuity. In addition, other neovascular lesions such as those with predominate occult (vessels that are difficult to outline by fluorescein angiography) or pure occult do not demonstrate any substantial treatment benefit.

Histopathologic studies have demonstrated the presence of an inflammatory response in the retina of patients with choroidal neovascularization as well as in eyes receiving PDT. In addition, in eyes receiving PDT, a vascular remodeling and continued neovascular process occurs. Therefore, the use of celecoxib (Celebrex® (Registered Trademark)), a specific cyclooxygenase-2 inhibitor, which possesses both anti-angiogenic as well as anti-inflammatory properties, may be beneficial in patients with neovascular AMD undergoing PDT.

The study will be organized as a double-masked, randomized, placebo-controlled, prospective multi-center clinical trial to investigate the ability of celecoxib to alter the inflammatory and neovascular responses in AMD patients undergoing PDT. The results of this study will contribute to the design of a larger definitive clinical trial. The primary outcome measure is a drop of 15 letters or more in best corrected visual acuity following initial PDT treatment at 1 year. The secondary outcome measures are stabilization (drop of 4 letters of less from baseline) or improvement of best corrected visual acuity following initial PDT treatment at week 36, and an improvement by 5 or more letters in visual acuity from baseline to week 36, time to retreatment with PDT, number of retreatments with PDT and a change in the CNV size, the extent of leakage and staining detected by fluorescein angiography. Additional outcome measures will be the change in size and extent of vascular remodeling and choroidal new vessel formation as determined by optical coherence tomography (OCT) and high-speed indocyanine green angiography (HS-ICG).

Eligibility

Ages Eligible for Study:

Child, Adult, Senior

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

No

Criteria

INCLUSION CRITERIA:

To participate in this study, the study participant must understand and sign the protocol informed consent.

Age greater than or equal to 50 years.

In at least one eye, diagnosis of AMD defined by the presence of drusen larger than 63 micro milli.

The presence of choroidal neovascularization under the fovea determined by the Principal Investigator of each clinical site and defined as any one of the following fluorescein angiographic (FA) features:

Early stippled hyperfluorescence of flat retinal pigment epithelium with ill-defined boundary and little or mild leakage in the late frames of the fluorescein (occult).

Irregular elevation of the retinal pigment epithelium that does not exhibit discrete or bright hyperfluorescence in the early transit phase of the angiogram. Stippled hyperfluorescence may be present. Late frames may show persistent fluorescein staining or leakage within a sensory retinal detachment overlying this area (occult).

Late phase leakage of undetermined source with leakage at the level of the retinal pigment epithelium in the late-frames of the angiogram in which the source of the late leakage cannot be determined from earlier-phase frames of the angiogram (occult).

A well-demarcated area of bright hyperfluorescence in the early phase of the angiograpm with leakage through the mid- and late- phase frames which obscures the boundaries of the area (classic).

The greatest linear dimension of the entire lesion (classic CNV, occult CNV and any features that could obscure the identification of classic or occult CNV has to be less than or equal to 5400 micro milli in greatest linear dimension on the retina as measured by the treating ophthalmologist. If the lesion is designated as entirely occult, then additionally, the greatest linear dimension of the lesion must be greater than 525 micro milli (total area of 1/2 disc area). Additionally, if the lesion is designated as entirely occult then there should be 'presumed recent disease progression' that may include the presence of blood from CNV, growth of the lesion (at least 10% increase in the greatest linear dimension) or deterioration inVA (a one line loss) within the preceding 12 weeks.

Visual acuity of 20/40 - 20/200 (66 - 34 letters) as measured on an ETDRS chart. If both eyes are eligible then the eye with the worst visual acuity will be treated and considered the study eye.

Retinal photographs and angiography of sufficient quality allowing assessment of the macular area according to standard clinical practice can be obtained.

EXCLUSION CRITERIA:

Choroidal neovascularization, in the study eye, associated with other ocular diseases such as pathologic myopia, ocular histoplasmosis or posterior uveitis, etc.

Presence of geographic atrophy under the fovea in the study eye.

Decreased vision, the study eye, due to retinal disease not attributable to CNV, such as nonexudative forms of ARM, geographic atrophy, inherited retinal dystrophy, uveitis or epiretinal membrane.

Decreased vision, in the study eye, due to significant media opacity such as corneal disease or cataract, or opacity precluding photography of the retina.

History of other antiangiogenic treatment of concomitant administration of other experimental therapies for AMD other than nonfoveal confluent laser photocoagulation.

Presence of fibrosis, hemorrhage, pigment epithelial detachments, tear (rip) of the retinal pigment epithelium or other hypofluorescent lesions obscuring greater than 50% of the CNV lesion.

Prior PDT treatment in the study eye.

Any contraindications to performing the necessary diagnostic studies, especially the use of fluorescein or indocyanine green angiography.

Current use of or likely need for systemic or ocular medications know to be toxic to the lens, retina or optic nerve, such as:

Deferoxamine

Chloroquine/Hydroxychloroquine (Plaquenil)

Tamoxifen

Phenothiazine

Phenothiazines

Ethambutol

History of intra-cranial bleeds.

Positive urine pregnancy test or currently lactating for women of childbearing potential.

Current history of malignancy (except study participants having a basal cell carcinoma that was treated successfully, or other malignancy operated on and in remission for 5 years prior to inclusion in the trial).

Use of tetracycline or doxycycline.

Intraocular surgery within the last 2 months or capsulotomy within the last month in the study eye.

Use of any investigational drug within 30 days of enrollment.

Laboratory values outside normal limits and considered clinically significant by the investigator.

Malabsorption syndrome.

Celebrex, any other COX-2 inhibitor, NSAID, or ocular topical NSAID use greater than 3 days per week for a period of greater than or equal to 4 weeks within 2 weeks prior to enrollment of likely need during the study. Aspirin greater than 81 mg/day is permitted up to 1 week prior to enrollment and daily aspirin use of no more than 81 mg/day during the study is permitted.

History of kidney disease (creatinine level greater than 2.5 dL, need for dialysis, or microalbuminurea).

Liver disease.

Concurrent use of warfarinor known bleeding diathesis.

History of inflammatory bowel disease.

Concurrent use of lithium.

History of peptic ulcer within 1 year prior to enrollment.

History of myocardial infarction 2 years prior to enrollment.

Contacts and Locations

Choosing to participate in a study is an important personal decision. Talk with your doctor and family members or friends about deciding to join a study.
To learn more about this study, you or your doctor may contact the study research staff using the Contacts provided below.
For general information, see Learn About Clinical Studies.

Please refer to this study by its ClinicalTrials.gov identifier: NCT00043680